EP3495091B1 - Schneidwerkzeug und verfahren zur montage des schneidwerkzeugs - Google Patents
Schneidwerkzeug und verfahren zur montage des schneidwerkzeugs Download PDFInfo
- Publication number
- EP3495091B1 EP3495091B1 EP18196209.3A EP18196209A EP3495091B1 EP 3495091 B1 EP3495091 B1 EP 3495091B1 EP 18196209 A EP18196209 A EP 18196209A EP 3495091 B1 EP3495091 B1 EP 3495091B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- axis
- circumferential surface
- outer circumferential
- head
- spacer
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
- 238000005520 cutting process Methods 0.000 title claims description 50
- 238000000034 method Methods 0.000 title claims description 20
- 125000006850 spacer group Chemical group 0.000 claims description 70
- 238000003780 insertion Methods 0.000 claims description 58
- 230000037431 insertion Effects 0.000 claims description 58
- 230000007423 decrease Effects 0.000 claims description 8
- 235000011475 lollipops Nutrition 0.000 description 4
- 230000006866 deterioration Effects 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 238000005259 measurement Methods 0.000 description 2
- 238000007792 addition Methods 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B31/00—Chucks; Expansion mandrels; Adaptations thereof for remote control
- B23B31/02—Chucks
- B23B31/10—Chucks characterised by the retaining or gripping devices or their immediate operating means
- B23B31/107—Retention by laterally-acting detents, e.g. pins, screws, wedges; Retention by loose elements, e.g. balls
- B23B31/1075—Retention by screws
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B31/00—Chucks; Expansion mandrels; Adaptations thereof for remote control
- B23B31/02—Chucks
- B23B31/10—Chucks characterised by the retaining or gripping devices or their immediate operating means
- B23B31/11—Retention by threaded connection
- B23B31/1107—Retention by threaded connection for conical parts
- B23B31/1122—Retention by threaded connection for conical parts using cylindrical threads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B31/00—Chucks; Expansion mandrels; Adaptations thereof for remote control
- B23B31/005—Cylindrical shanks of tools
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B31/00—Chucks; Expansion mandrels; Adaptations thereof for remote control
- B23B31/02—Chucks
- B23B31/028—Chucks the axial positioning of the tool being adjustable
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B31/00—Chucks; Expansion mandrels; Adaptations thereof for remote control
- B23B31/02—Chucks
- B23B31/24—Chucks characterised by features relating primarily to remote control of the gripping means
- B23B31/26—Chucks characterised by features relating primarily to remote control of the gripping means using mechanical transmission through the working-spindle
- B23B31/261—Chucks characterised by features relating primarily to remote control of the gripping means using mechanical transmission through the working-spindle clamping the end of the toolholder shank
- B23B31/263—Chucks characterised by features relating primarily to remote control of the gripping means using mechanical transmission through the working-spindle clamping the end of the toolholder shank by means of balls
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C5/00—Milling-cutters
- B23C5/02—Milling-cutters characterised by the shape of the cutter
- B23C5/10—Shank-type cutters, i.e. with an integral shaft
- B23C5/1009—Ball nose end mills
- B23C5/1027—Ball nose end mills with one or more removable cutting inserts
- B23C5/1045—Ball nose end mills with one or more removable cutting inserts having a cutting insert, the cutting edge of which subtends substantially 90 degrees
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P15/00—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass
- B23P15/28—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass cutting tools
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B2260/00—Details of constructional elements
- B23B2260/134—Spacers or shims
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B29/00—Holders for non-rotary cutting tools; Boring bars or boring heads; Accessories for tool holders
- B23B29/04—Tool holders for a single cutting tool
- B23B29/046—Tool holders for a single cutting tool with an intermediary toolholder
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B31/00—Chucks; Expansion mandrels; Adaptations thereof for remote control
- B23B31/02—Chucks
- B23B31/10—Chucks characterised by the retaining or gripping devices or their immediate operating means
- B23B31/117—Retention by friction only, e.g. using springs, resilient sleeves, tapers
- B23B31/1175—Retention by friction only, e.g. using springs, resilient sleeves, tapers using elastomer rings or sleeves
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C2210/00—Details of milling cutters
- B23C2210/02—Connections between the shanks and detachable cutting heads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C2240/00—Details of connections of tools or workpieces
- B23C2240/32—Connections using screw threads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P11/00—Connecting or disconnecting metal parts or objects by metal-working techniques not otherwise provided for
- B23P11/02—Connecting or disconnecting metal parts or objects by metal-working techniques not otherwise provided for by first expanding and then shrinking or vice versa, e.g. by using pressure fluids; by making force fits
- B23P11/025—Connecting or disconnecting metal parts or objects by metal-working techniques not otherwise provided for by first expanding and then shrinking or vice versa, e.g. by using pressure fluids; by making force fits by using heat or cold
- B23P11/027—Connecting or disconnecting metal parts or objects by metal-working techniques not otherwise provided for by first expanding and then shrinking or vice versa, e.g. by using pressure fluids; by making force fits by using heat or cold for mounting tools in tool holders
Definitions
- the present invention relates to a cutting tool and a method of assembling the cutting tool.
- a tool called an end mill types of which include a ball end mill, a radius end mill, a lollipop mill and the like
- Such a cutting tool includes a holder supported by a chuck of a machine tool, a shank that can be fixed to the holder, and a head detachably attached to a distal end portion of the shank.
- a blade is formed in the head.
- the machine tool is driven, the blade rotates with the head in a predetermined direction. As a result, it is possible to apply a desired cutting process to a processing target (workpiece).
- turning tools used by being attached to a lathe are also widely known.
- processing is performed by pressing a blade of the turning tool against a workpiece rotating around a main axis extending in a horizontal direction.
- Patent Document 1 As a specific example of such a turning tool, for example, one described in the following Patent Document 1 is known.
- a hole portion of a head portion is shrink-fitted to a shaft portion of a shank portion.
- the present invention provides a cutting tool having sufficient rigidity and a method of assembling the cutting tool.
- the female screw formed in the insertion hole of the head and the male screw formed in the insertion portion of the shank mesh with each other. Furthermore, the tapered outer circumferential surface of the insertion hole and the tapered inner circumferential surface of the insertion portion come into surface contact with each other, and the head end surface and the surface of the spacer facing the one side in the direction of the axis come into contact with each other. That is, the two surfaces are in surface contact with each other.
- an attachment structure that uses thermal deformation, such as shrinkage fit is not used, it is possible to avoid loosening or rattling of the tool due to heat input during processing and accuracy deterioration.
- an angle formed by the tapered inner circumferential surface and the axis may be greater than an angle formed by the tapered outer circumferential surface and the axis.
- the angle formed by the tapered outer circumferential surface and the axis is greater than the angle formed by the tapered inner circumferential surface and the axis.
- the tapered inner circumferential surface and the tapered outer circumferential surface may come into surface contact with each other by being plastically deformed.
- the tapered inner circumferential surface and the tapered outer circumferential surface come into surface contact with each other by being plastically deformed. Accordingly, it is possible to further increase the surface pressure generated between the tapered outer circumferential surface and the tapered inner circumferential surface. Therefore, the head and the shank can be more firmly coupled.
- the dimension of the gap between the shank and the head is measured in the measuring step. Based on this dimension, the spacer is machined in the spacer processing step. That is, the spacer attached to the shank in the subsequent spacer attaching step has a dimension which sufficiently fills the gap between the shank and the head at this stage. Further, in the final inserting step, the head is attached to the shank by adding a final torque greater than the initial torque. Thus, the spacer is plastically deformed and becomes smaller than the dimension of the final gap. Therefore, it is possible to sufficiently increase the surface pressure generated between the spacer and the head.
- a cutting tool 100 according to an embodiment of the present invention will be described with reference to the drawings.
- the cutting tool 100 according to the present embodiment is used while attached to a chuck (not shown) of a machine tool.
- the cutting tool 100 of the present embodiment is an end mill, more specifically, for example, a lollipop mill.
- the chuck rotates around an axis A in a state in which the cutting tool 100 is supported from the direction of the axis A.
- the cutting tool 100 includes a holder 10, a shank 20, a head 40, and a spacer 50.
- the holder 10 has a columnar shape around the axis A.
- An end portion (a proximal end portion 1A) on the other side (a second side) of the holder 10 in the direction of the axis A has a greater diameter dimension (a dimension in a radial direction around the axis A) than other portions.
- the proximal end portion 1A is fastened and fixed to the chuck of the above-mentioned machine tool.
- the shank 20 connects the holder 10 and the head 40.
- the shank 20 of the present embodiment has a shank main body 21 and an insertion portion 22.
- the shank main body 21 extends in a columnar shape along the axis A. Since a diameter dimension (a diameter dimension with respect to the axis A) gradually decreases from the proximal end portion 1A, which is the other side in the direction of the axis A, toward one side, the shank main body 21 has a tapered shape.
- the insertion portion 22 is formed at an end portion on one side (a first side) in the direction of the axis A of the shank main body 21.
- the insertion portion 22 extends from the shank main body 21 toward the one side in the direction of the axis A.
- the insertion portion 22 protrudes from the first surface 21A, which is an end surface one side of the shank main body 21 in the direction of the axis A, toward the one side in the direction of the axis A.
- the first surface 21A is a plane expanding in a direction orthogonal to the axis A.
- the insertion portion 22 has substantially a rod shape around the axis Ar.
- the diameter dimension of the insertion portion 22 is smaller than the diameter dimension of the end portion on the one side of the shank main body 21 in the direction of the axis A.
- the insertion portion 22 is integrally formed of the same material as the shank main body 21.
- the insertion portion 22 includes a first connecting portion 31 extending from the first surface 21A, a tapered outer circumferential portion 32 provided on the one side in the direction of the axis A with respect to the first connecting portion 31, a second connecting portion 33 provided on the one side in the direction of the axis A with respect to the tapered outer circumferential portion 32 , and a male screw portion 34 provided on the one side in the direction of the axis A with respect to the second connecting portion 33.
- the first connecting portion 31 has the same diameter dimension over the entire region in the direction of the axis A.
- the first connecting portion 31 is provided at the position of the axis A on the first surface 21A.
- the first connecting portion 31 has a circular cross section centered on the axis A when viewed from the direction of the axis A.
- a spacer 50 to be described later is attached to the outer circumferential side of the first connecting portion 31.
- the outer circumferential surface of the first connecting portion 31 is referred to as a first outer circumferential surface 31A.
- the tapered outer circumferential portion 32 is provided integrally and coaxially with the first connecting portion 31. In other words, the tapered outer circumferential portion 32 and the first connecting portion 31 are centered on the axis A.
- the tapered portion 32 is formed in a region on the other side in the direction of the axis A with respect to the male screw portion 34.
- the tapered outer circumferential portion 32 has a circular cross section centered on the axis A when viewed from the direction of the axis A.
- the tapered outer circumferential portion 32 gradually decreases in diameter from the other side toward the one side in the direction of the axis A. That is, the diameter dimension of the tapered outer circumferential portion 32 gradually decreases from the other side toward the one side in the direction of the axis A.
- the outer circumferential surface of the tapered outer circumferential portion 32 is referred to as a tapered outer circumferential surface 32A.
- the tapered outer circumferential surface 32A has a conical surface shape centered on the axis A.
- the outer shape of the end portion of the tapered outer circumferential surface 32A on the other side in the direction of the axis A has the same diameter as the first outer circumferential surface 31A.
- the outline of the second surface 22A which is the end surface on one side in the direction of the axis A, has a smaller diameter than the first outer peripheral surface 31A.
- the area of the second surface 22A is smaller than the cross-sectional area of the above-described first connecting portion 31.
- the second connecting portion 33 is provided integrally and coaxially with the tapered outer circumferential portion 32.
- the second surface 22A extends in a plane orthogonal to the axis A.
- the second connecting portion 33 has a circular cross section centered on the axis A as viewed from the direction of the axis A.
- the second connecting portion 33 extends from the second surface 22A to the one side in the direction of the axis A.
- the cross-sectional area of the second connecting portion 33 is smaller than the area of the second surface 22A.
- the outer circumferential surface of the second connecting portion 33 is referred to as a second outer circumferential surface 33A.
- the male screw portion 34 is formed at a distal end portion of the insertion portion 22 including an end portion of the insertion portion 22 on the one side in the direction of the axis A.
- the male screw portion 34 extends from an end portion of the second connecting portion 33 on the one side in the direction of the axis A.
- the male screw portion 34 is provided integrally and coaxially with the second connecting portion 33.
- On the outer circumferential surface of the male screw portion 34 a male screw Sm having a spiral shape around the axis A is formed.
- the male screw Sm can mesh with a female screw Sf formed on the inner circumferential surface of the head 40 to be described later.
- the head 40 is a member attached to the above-described shank 20, and a blade (chip C) is attached to a distal end portion thereof.
- the head 40 is formed of a material different from that of the shank 20.
- the head 40 has a flange portion 41 which covers the insertion portion 22 from the outer circumferential side, and a head main body 42 integrally provided on the one side of the flange portion 41 in the direction of the axis A.
- the flange portion 41 has a substantially cylindrical shape centered on the axis A.
- An outer circumferential surface 41A of the flange portion which is the outer circumferential surface of the flange portion 41 gradually decreases in diameter from the other side toward the one side in the direction of the axis A.
- an insertion hole 43 into which the above-described insertion portion 22 can be inserted is formed inside the flange portion 41.
- the insertion hole 43 is recessed toward the one side in the direction of the axis A from the end surface of the flange portion 41 on the other side in the direction of the axis A.
- the insertion hole 43 is shorter in length in the direction of the axis A than the insertion portion 22.
- a tapered inner circumferential surface 44A, a facing surface 45, and a female screw Sf are formed in order from the other side toward the one side in the direction of the axis A.
- the tapered inner circumferential surface 44A forms a part of the inner circumferential surface of the insertion hole 43.
- the tapered inner circumferential surface 44A is provided in the region of the other side in the direction of the axis A with respect to the facing surface 45 and the female screw Sf, on the inner surface.
- the tapered inner circumferential surface 44A gradually decreases in diameter from the other side toward the one side in the direction of the axis A.
- the tapered inner circumferential surface 44A has a conical surface shape centered on the axis A.
- an angle formed by the tapered inner circumferential surface 44A and the axis A in a cross section including the axis A is greater than an angle formed by the tapered outer circumferential surface 32A of the insertion portion 22 and the axis A.
- at least some parts of the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A are in surface contact with each other.
- the diameter dimension of the end portion of the tapered inner circumferential surface 44A on the one side in the direction of the axis A is substantially the same as the diameter dimension of the end portion of the tapered outer circumferential surface 32A on the one side in the direction of the axis A. Since the angle formed by the tapered inner circumferential surface 44A and the axis A is greater than the angle formed by the tapered outer circumferential surface 32A and the axis A, at least some parts of the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A are in surface contact with each other in a state in which they are plastically deformed. In particular, the degree of plastic deformation is greater on the one side in the direction of the axis A.
- the facing surface 45 forms a part of the inner circumferential surface of the insertion hole 43.
- the facing surface 45 is provided in a region between the tapered inner circumferential surface 44A and the female screw Sf on the inner surface.
- the facing surface 45 faces the second outer circumferential surface 33A of the second connecting portion 33 in the above-described insertion portion 22 in the radial direction of the axis A.
- the female screw Sf forms a part of the inner circumferential surface of the insertion hole 43.
- the female screw Sf is provided on the one side in the direction of the axis A from the facing surface 45 and in a region including the end portion of the insertion hole 43 on the one side in the direction of the axis A.
- the female screw Sf can mesh with the male screw Sm of the male screw portion 34 formed in the above-described insertion portion 22.
- the head main body 42 has a spherical segment shape, and a pair of chips C having blades are attached to a part of the outer circumferential surface thereof.
- the spherical segment shape is a shape of the larger volume portion among the two portions which cut a sphere with a plane that does not pass through the center of the sphere.
- a plurality of chips C (two in the present embodiment) are attached to be spaced apart from the surface of the head main body 42.
- the chip C is detachably attached to the head main body 42 by, for example, bolts and nuts. That is, when the chip C is abraded or lost, it can be replaced with a new chip C.
- each chip C has an arc-shaped blade, and it is possible to form a curved cutting surface on the workpiece.
- a gap G extending in the direction of the axis A is formed between the head end surface 46 which is the end surface of the head 40 on the other side in the direction of the axis A and the first surface 21A of the shank 20.
- the spacer 50 is disposed between the shank main body 21 and the head 40. Specifically, as shown in FIG. 2 , the spacer 50 of this embodiment is accommodated in the gap G.
- the spacer 50 is in the shape of a ring centered on the axis A.
- the dimension of the spacer 50 in the direction of the axis A is slightly greater than the dimension of the gap G in the direction of the axis A. That is, in a state in which the head 40 is attached to the shank 20, the spacer 50 is slightly crushed and deformed from both sides in the direction of the axis A between the head end surface 46 and the first surface 21A. In this way, the spacer 50 fills the gap G between the head end surface 46 and the first surface 21A.
- the first surface 21A of the shank 20 comes into surface contact with a surface (a spacer first surface 51) facing the other side of the spacer 50 in the direction of the axis A.
- the head end surface 46 of the head 40 comes into surface contact with a surface (a spacer second surface 52) facing the one side of the spacer 50 in the direction of the axis A.
- the inner circumferential surface (a spacer inner circumferential surface 53) of the spacer 50 comes into surface contact with the outer circumferential surface (a first outer circumferential surface 31A) of the first connecting portion 31 of the insertion portion 22.
- the method of assembling the cutting tool 100 includes a provisional inserting step S1, a measuring step S2, a spacer processing step S3, a spacer attaching step S4, and a final inserting step S5.
- the head 40 is attached to the shank 20 in a state in which the spacer 50 is not attached.
- the distal end portion of the male screw Sm formed in the insertion portion 22 first meshes with the female screw Sf formed in the insertion hole 43.
- the tapered outer circumferential surface 32A and the tapered inner circumferential surface 44A come into contact with each other.
- the torque required at this time is set as an initial torque.
- the initial torque is a predetermined torque, at which the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A come into contact with each other without plastic deformation.
- the measuring step S2 is executed.
- the measuring step S2 the dimension in the direction of the axis A of the gap G between the head end surface 46 of the head 40 and the first surface 21A of the shank 20 is measured.
- a well-known measuring device such as a caliper or a micrometer is suitably used for the measurement.
- the head 40 is detached from the shank 20.
- the measuring step S2 is completed.
- the spacer processing step S3 is executed.
- the spacer 50 is fabricated on the basis of the dimension in the direction of the axis A of the gap G between the head end surface 46 and the first surface 21A obtained in the above measuring step S2. Specifically, by processing an element body of the spacer 50 which is roughly cut to rough dimensions, the spacer 50 which has a thickness equal to or greater than the dimension in the direction of the axis A of the gap G obtained in the measuring step S2 is fabricated.
- the thickness of the spacer 50 is preferably the same thickness as the dimension of the gap G in the direction of the axis A or slightly greater than the dimension of the gap G in the direction of the axis A.
- the thickness of the spacer 50 is greater than the dimension of the gap G, the thickness of the spacer 50 is preferably 130% or less of the dimension in the direction of the axis A of the gap G, more preferably 120% or less.
- the spacer processing step S3 is completed.
- the spacer attaching step S4 is executed. As shown in FIG. 5 , the spacer 50 is attached to the shank 20 with the head 40 removed. At this time, the spacer 50 is attached so that the spacer first surface 51 of the spacer 50 and the first surface 21A of the shank 20 come into contact with each other. At this time, the inner circumferential surface 53 of the spacer and the outer circumferential surface (the first outer circumferential surface 31A) of the first connecting portion 31 are brought into contact with each other. Thus, the spacer attaching step S4 is completed.
- the final inserting step S5 is executed.
- a final torque greater than the initial torque is added to the head 40 and attached to the shank 20.
- the final torque is a torque that is several % greater than the initial torque and is a torque that is great enough that the spacer 50 does not rotate when sandwiched between the head end surface 46 and the first surface 21A.
- the insertion portion 22 is inserted further into the insertion hole 43 as compared to the provisional inserting step S1.
- the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A are brought into surface contact with each other in the region on the one side in the direction of the axis A in a state in which they are plastically deformed.
- the head end surface 46 and the spacer second surface 52 are brought into surface contact with each other.
- the state shown in FIG. 1 and FIG. 2 is obtained, and the final inserting step S5 is completed. If a step or the like is generated between the outer circumferential surface of the spacer 50 and the outer circumferential surface 41A of the flange portion after the final inserting step S5 is completed, a step of removing the step or the like may be executed.
- the tapered inner circumferential surface 44A and the axis A is greater than the angle formed by the tapered outer circumferential surface 32A and the axis A, as the male screw Sm is screwed into the female screw Sf, the required torque gradually increases. At this time, until the entire male screw Sm and the female screw Sf mesh with each other in the state in which a final torque greater than the above-described initial torque is applied, the insertion portion 22 of the shank 20 is inserted into the insertion hole 43 of the head 40. Therefore, the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A come into contact with each other in a state in which at least a part thereof is plastically deformed.
- the dimension of the gap G in the direction of the axis A is smaller than the dimension in the measuring step S2 after the provisional inserting step S1.
- the spacer 50 is crushed and deformed from both sides in the direction of the axis A. That is, the two surfaces of the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A, the head end surface 46 and the spacer second surface 52, and the first surface 21A and the spacer first surface 51 are brought into contact with each other under high surface pressure (in a state of surface contact).
- the machine tool is driven in a state in which the holder 10 is supported by the chuck of the machine tool.
- the chuck rotates around the axis A
- the cutting tool 100 also rotates about the axis A.
- the blade (chip C) of the cutting tool 100 is brought into contact with the surface of the workpiece, and the cutting is carried out for the desired cutting amount.
- stress due to contact with the workpiece is generated in the cutting tool 100.
- the female screw Sf formed in the insertion hole 43 of the head 40 and the male screw Sm formed in the insertion portion 22 of the shank 20 mesh with each other. Furthermore, the tapered outer circumferential surface 32A of the insertion hole 43 and the tapered inner circumferential surface 44A of the insertion portion 22 come into surface contact with each other, the head end surface 46 and the spacer second surface 52 come into contact with each other, and the first surface 21A and the spacer first surface 51 come into contact with each other. That is, the two surfaces are in state of being in surface contact with each other.
- This makes it possible to firmly couple the head 40 and the shank 20 as compared with a configuration in which a pair of surfaces are in contact with each other.
- the attachment structure accompanied by thermal deformation, such as shrinkage fit is not used, it is possible to avoid loosening or rattling of the tool due to heat input during processing and accuracy deterioration.
- the angle formed by the tapered outer circumferential surface 32A and the axis A is greater than the angle formed by the tapered inner circumferential surface 44A and the axis A, in the state of assembling the shank 20 and the head 40, it is possible to increase the surface pressure generated between the tapered outer circumferential surface 32A and the tapered inner circumferential surface 44A from the other side toward the one side in the direction of the axis A. Therefore, the head 40 and the shank 20 can be more firmly coupled.
- the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A come into surface contact with each other accompanying plastic deformation, it is possible to further increase the surface pressure generated between the tapered outer circumferential surface 32A and the tapered inner circumferential surface 44A. Therefore, the head 40 and the shank 20 can be more firmly coupled.
- the dimension of the gap G between the shank 20 and the head 40 is measured by the measuring step S2. Based on this dimension, the spacer 50 is machined by the spacer processing step S3. That is, the spacer 50 attached to the shank 20 in the subsequent spacer attaching step S4 has a dimension which sufficiently fills the gap G between the shank 20 and the head 40 at this stage. Further, in the final inserting step S5, since the head 40 is attached to the shank 20 by adding a final torque greater than the initial torque, the spacer 50 is plastically deformed and becomes smaller than the dimension of the final gap G. Therefore, it is possible to sufficiently increase the surface pressure generated between the spacer 50 and the head 40.
- the shape of the head 40 is not limited to the above shape, and it is possible to use a ball end mill or a radius end mill as the head 40.
- tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A are not limited to the configuration in which the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A come into surface contact with each other by being plastically deformed as in this embodiment.
- the tapered inner circumferential surface 44A and the tapered outer circumferential surface 32A may not be plastically deformed as long as at least some parts thereof come into surface contact with each other.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Milling Processes (AREA)
- Gripping On Spindles (AREA)
- Cutting Tools, Boring Holders, And Turrets (AREA)
Claims (4)
- Schneidwerkzeug (100), umfassend:einen Schaft (20), der einen Schafthauptkörper (21), der sich entlang einer Achse (A) erstreckt, und einen Einsetzabschnitt (22) aufweist, der aus dem Schafthauptkörper (21) zu einer Seite in einer Richtung der Achse (A) hervorsteht;einen Kopf (40) mit einem Flanschabschnitt (41), in dem ein Einsetzloch (43) so ausgebildet ist, dass der Einsetzabschnitt (22) in das Einsetzloch (43) eingesetzt werden kann, wobei das Einsetzloch (43) in Richtung der Achse (A) in der Länge kürzer ist als der Einsetzabschnitt (22); undeinen Abstandshalter (50), der zwischen dem Schafthauptkörper (21) und dem Kopf (40) angeordnet ist,wobei der Einsetzabschnitt (22) aufweist:einen Außengewindeschraubenabschnitt (34), in dem eine Außengewindeschraube (Sm) an einer Außenumfangsfläche in einem distalen Endabschnitt ausgebildet ist, der einen Endabschnitt auf der einen Seite in Richtung der Achse (A) enthält, undeinen verjüngten Außenumfangsabschnitt (32), in dem eine verjüngte Außenumfangsfläche (32A), deren Durchmesser graduell von der anderen Seite zu der einen Seite in Richtung der Achse (A) abnimmt, in einem Bereich auf der anderen Seite in Richtung der Achse (A) in Bezug auf den Außengewindeschraubenabschnitt (34) ausgebildet ist, undwobei das Einsetzloch (43) aufweist:eine Innengewindeschraube (Sf), die mit der Außengewindeschraube (Sm) in einem Bereich ineinander greift, der einen Endabschnitt auf der einen Seite in Richtung der Achse auf einer Innenfläche enthält;eine verjüngte Innenumfangsfläche (44A), deren Durchmesser graduell von der anderen Seite zu der einen Seite in Richtung der Achse abnimmt und die mit der verjüngten Außenumfangsfläche (32A) in Flächenkontakt kommt, und zwar in einem Bereich auf der anderen Seite in Richtung der Achse (A) in Bezug auf die Innengewindeschraube (Sf) an der Innenfläche, undeine Kopfendefläche (46) des Kopfes, die eine Endfläche ist, die der anderen Seite in Richtung der Achse (A) zugewandt ist, kommt mit einer Fläche (52) des Abstandshalters (50) in Flächenkontakt, die der einen Seite in Richtung der Achse (A) zugewandt ist;wobei das Schneidwerkzeug (100) dadurch gekennzeichnet ist, dass der Einsetzabschnitt (22) ferner aufweist: einen ersten Verbindungsabschnitt (31), der sich von einer ersten Fläche (21A) erstreckt, wobei der verjüngte Außenumfangsabschnitt (32) auf der einen Seite in Richtung der Achse in Bezug auf den ersten Verbindungsabschnitt (31) bereitgestellt ist, einen zweiten Verbindungsabschnitt (33), der auf der einen Seite in Richtung der Achse A in Bezug auf den verjüngten Außenumfangsabschnitt (32) bereitgestellt ist, und einen Außengewindeschraubenabschnitt (34), der auf der einen Seite in Richtung der Achse A in Bezug auf den zweiten Verbindungsabschnitt (33) bereitgestellt ist, und dadurch, dassdie Querschnittsfläche des zweiten Verbindungsabschnitts (33) kleiner ist als die Fläche einer zweiten Fläche (22A), wobei die erste Fläche (21A) und die zweite Fläche (22A) die Endflächen des Schafthauptkörpers (21) bzw. des verjüngten Außenumfangsabschnitts (32) sind.
- Schneidwerkzeug nach (100) nach Anspruch 1, wobei ein Winkel, der durch die verjüngte Innenumfangsfläche (44A) und die Achse (A) gebildet ist, größer ist als ein Winkel, der durch die verjüngte Außenumfangsfläche (32A) und die Achse (A) gebildet ist.
- Schneidwerkzeug nach Anspruch 1 oder 2, wobei die verjüngte Innenumfangsfläche (44A) und die verjüngte Außenumfangsfläche (32A) miteinander in Kontakt kommen, indem sie plastische verformt werden.
- Verfahren zum Montieren des Schneidwerkzeugs (100) nach einem der Ansprüche 1 bis 3, wobei das Verfahren umfasst:einen vorläufigen Einsetzschritt des Einsetzens des Einsetzabschnitts (22) in das Einsetzloch (43) und des Hinzufügens eines vorbestimmten anfänglichen Drehmoments, um zu bewirken, dass die Außengewindeschraube (Sm) und die Innengewindeschraube (Sf) ineinander greifen, um einen Spalt zwischen dem Schafthauptkörper (21) und dem Kopf (40) zu bilden;einen Messschritt des Messens einer Abmessung des Spaltes zwischen dem Schafthauptkörper (21) und dem Kopf (40), der in dem vorläufigen Einsetzschritt erzeugt wird, und des anschließenden Lösens des Kopfes (40) von dem Schaft (20);einen Abstandshalter-Bearbeitungsschritt des Bearbeitens des Abstandshalters (50), der eine Dicke aufweist, die gleich oder größer als die Abmessung des in dem Messschritt gemessenen Spaltes ist;einen Abstandshalter-Anbringungsschritt des Anbringens des Abstandshalters (50) an dem Schaft (20); undeinen finalen Einsetzschritt des Bringens der verjüngten Innenumfangsfläche (44A) und der verjüngten Außenumfangsfläche (32A) in Flächenkontakt miteinander und des Bringens einer Kopfendfläche, die eine Endfläche ist, die der anderen Seite in Richtung der Achs zugewandt ist, in Flächenkontakt mit einer Fläche des Abstandshalters (50), die der einen Seite in Richtung der Achse (A) zugewandt ist, durch Aufbringen eines finalen Drehmoments, das größer als das anfängliche Drehmoment ist, um den Kopf an dem Schaft anzubringen,wobei das anfängliche Drehmoment ein Drehmoment ist, bei dem die verjüngte Innenumfangsfläche (44A) und die verjüngte Außenumfangsfläche (32A) ohne plastische Verformung miteinander in Kontakt kommen, undwobei das finale Drehmoment ein Drehmoment ist, das groß genug ist, dass sich der Abstandshalter (50) nicht dreht, wenn er zwischen der Kopfendfläche (46) und einer ersten Fläche (21A) angeordnet ist, die eine Endfläche des Schafthauptkörpers (21) ist.
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JP2017234548A JP6651494B2 (ja) | 2017-12-06 | 2017-12-06 | 切削工具及び切削工具の組み立て方法 |
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